Monday–Friday, March 5–9, 2018;
Los Angeles, California

Abstract: S48.00005 : Self-charging of Identical Grains in the Absence of an External Field*

12:03 PM–12:15 PM

Abstract

Presenter:

Nuno Araujo(Centre for Theoretical and Computational Physics, Universidade de Lisboa)

Authors:

Nuno Araujo(Centre for Theoretical and Computational Physics, Universidade de Lisboa)

Ryuta Yoshimatsu(ETH)

Andre Matias(Centre for Theoretical and Computational Physics, Universidade de Lisboa)

Gerhard Wurm(University of Duisburg-Essen)

Hans Herrmann(ETH)

Troy Shinbrot(Rutgers University)

Completely identical insulator grains do charge one another upon contact and the charge difference even increases with repeated contact. Several experimental and theoretical works have provided a strong analytic foundation for charging mechanisms due to geometric or material asymmetries, but the mechanism in the case of absolutely identical grains is not at all clear. Here, we investigate the electrostatic charging of an agitated bed of identical grains using particle-based simulations, mathematical modeling, and experiments. We simulate a discrete-element model including electrical multipoles and find that infinitesimally small initial charges can grow exponentially rapidly. We confirm the predicted exponential growth in experiments using vibrated grains under microgravity, and we describe novel predicted spatiotemporal states that merit further study. Finally, we discuss how the charging dynamics emerge from the competition between the polarization and relaxation time scales.